WO2021177345A1 - Pole-type solar power generator, illumination device equipped with said pole-type solar power generator, and monitoring information communication device equipped with said pole-type solar power generator - Google Patents
Pole-type solar power generator, illumination device equipped with said pole-type solar power generator, and monitoring information communication device equipped with said pole-type solar power generator Download PDFInfo
- Publication number
- WO2021177345A1 WO2021177345A1 PCT/JP2021/008136 JP2021008136W WO2021177345A1 WO 2021177345 A1 WO2021177345 A1 WO 2021177345A1 JP 2021008136 W JP2021008136 W JP 2021008136W WO 2021177345 A1 WO2021177345 A1 WO 2021177345A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- pole
- power generator
- solar power
- type solar
- cylinder
- Prior art date
Links
- 238000004891 communication Methods 0.000 title claims abstract description 44
- 238000012544 monitoring process Methods 0.000 title claims abstract description 22
- 238000005286 illumination Methods 0.000 title abstract 2
- 238000010248 power generation Methods 0.000 claims abstract description 42
- 230000002093 peripheral effect Effects 0.000 claims description 21
- 238000009434 installation Methods 0.000 claims description 17
- 230000005611 electricity Effects 0.000 claims description 10
- 230000007613 environmental effect Effects 0.000 claims description 5
- 238000004804 winding Methods 0.000 claims description 2
- 238000012423 maintenance Methods 0.000 description 3
- 239000000463 material Substances 0.000 description 3
- 239000002184 metal Substances 0.000 description 3
- 239000000470 constituent Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000002654 heat shrinkable material Substances 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000012806 monitoring device Methods 0.000 description 1
- 230000035699 permeability Effects 0.000 description 1
- 230000003014 reinforcing effect Effects 0.000 description 1
- 229920003002 synthetic resin Polymers 0.000 description 1
- 239000000057 synthetic resin Substances 0.000 description 1
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21S—NON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
- F21S9/00—Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply
- F21S9/02—Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator
- F21S9/03—Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator rechargeable by exposure to light
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02S—GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
- H02S10/00—PV power plants; Combinations of PV energy systems with other systems for the generation of electric power
- H02S10/20—Systems characterised by their energy storage means
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02S—GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
- H02S20/00—Supporting structures for PV modules
- H02S20/10—Supporting structures directly fixed to the ground
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02S—GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
- H02S20/00—Supporting structures for PV modules
- H02S20/30—Supporting structures being movable or adjustable, e.g. for angle adjustment
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E70/00—Other energy conversion or management systems reducing GHG emissions
- Y02E70/30—Systems combining energy storage with energy generation of non-fossil origin
Definitions
- the present invention relates to a pole-type photovoltaic power generation device capable of generating electricity by sunlight while standing substantially vertically.
- a pole with a solar cell in which a solar cell module is mounted substantially vertically on the peripheral wall of the pole body and has a function of generating electricity by using at least the sunlight generated by the scattered light among the scattered light and the direct light (patented).
- Such a pole with a solar cell requires a small installation area, so the installation location is not limited, and it is also excellent in terms of landscape.
- the total cost is high.
- many solar cell modules are provided, it takes a lot of time and effort for maintenance, and there is a high risk that the solar cell module will break down.
- the pole-type photovoltaic power generator according to the present invention is a pole-type photovoltaic power generator that has a solar cell module and is capable of generating electricity by sunlight using the solar cell module in a state of being erected substantially vertically.
- a substantially cylindrical cylinder provided rotatably with respect to the pole body on the outer peripheral surface side of the pole body, and at least a part of the outer peripheral surface side of the cylinder. It includes the solar cell module and a battery for storing the power generated by the solar cell module.
- the above-mentioned photovoltaic power generator is further provided with a sensor and / or a camera for acquiring environmental information of the installation location, and a communication device for transmitting at least the information obtained by the sensor and / or the camera to an external communication means. It can also be a monitoring information communication device.
- a light 9 is provided as a light emitting unit on the upper part of the pole type photovoltaic generator 2, and further.
- a sensor 18 for acquiring environmental information, and a communication device 19 and a camera 20 for transmitting at least the information obtained by the sensor 18 to an external communication means are provided.
- the pole type photovoltaic power generator 2 has a photovoltaic power generation sheet body 5 as a solar cell module, and is capable of generating electricity by sunlight using the photovoltaic power generation sheet body 5 in a state of being erected substantially vertically.
- the pole main body 4 In the type photovoltaic power generator 2, the pole main body 4, the substantially cylindrical cylindrical body 3 provided on the outer peripheral surface side of the pole main body 4 so as to be rotatable with respect to the pole main body 4, and the tubular body 3 It includes a photovoltaic power generation sheet body 5 provided on at least a part of the outer peripheral surface side, and a battery 6 for storing the power generated by the photovoltaic power generation sheet body 5.
- the pole type solar power generator 2 is a pole type having a solar power generation function
- the pole type is, for example, a single columnar column erected substantially vertically as shown in the figure. Including those, those with polygonal or elliptical columns such as square columns, those with two or more connected instead of one, those with a slight upright angle adjusted according to the terrain and application, and It shall include a wide range of items such as those that can be folded, expanded and contracted, and those that can be stored in the ground, etc.
- the solar cell module refers to all those that convert light energy such as sunlight into electric energy, and is shown as a flexible one as an example, but is not limited to this, and is formed in a cylindrical shape. It may be a plate-shaped panel or the like, or another structure may be adopted.
- the pole-type photovoltaic generator 2 has a tubular body 3 and a pole main body 4 that rotatably holds the tubular body 3 at a predetermined height as main constituent members, and the tubular body 3 has a solar power generation sheet body 5.
- the electric power generated by the photovoltaic power generation sheet 5 is stored in a battery 6 provided inside the cylinder 3 or used for an electronic device or the like.
- the tubular body 3 is formed in an elongated cylindrical shape, and a pole main body 4 is inserted therein, and is rotatably held by the pole main body 4 at a predetermined height. Further, a flexible solar power generation sheet 5 is provided as a solar cell module on the outer peripheral surface side of the cylinder 3.
- the upper end and the lower end of the tubular body 3 engage with the guide surface 7 formed on the outer peripheral surface of the pole body 4 so as to be rotatable and slidable up and down with respect to the pole body 4.
- a fixing screw 10 which is a fixing means so as not to rotate and slide up and down, so that the tubular body 3 is fixed to the pole body 4 with respect to the pole body 4 during normal use. It is fixed in a stable state.
- the guide surface 7 of the pole body 4 that guides the rotation of the tubular body 3 has a diameter-reduced outer peripheral surface of the upper portion 4a of the pole main body 4 at the upper end portion, and is larger than the inner peripheral surface of the tubular body 3 at the lower end portion.
- the outer peripheral surface of the lower portion 4b of the pole body 4 formed to be slightly narrower functions as a guide surface, respectively.
- the guided surface 8 of the tubular body 3 has a disk-shaped upper guide metal fitting 21 having a guided surface 8 formed inside fixed to the inside of the tubular body 3 at the upper end portion. At the lower end, the inner surface of the tubular body 3 functions as a guided surface 8.
- the tubular body 3 By engaging the guide surfaces 7 and 7 with the guided surfaces 8 and 8, the tubular body 3 can rotate with respect to the pole body 4. Further, these engagements are maintained even if the tubular body 3 is slid upward, and even if the fixed position of the tubular body 3 is slightly moved upward, the tubular body 3 is relative to the pole body 4. It remains rotatable.
- the tubular body 3 is rotatable and slidable up and down with respect to the pole body 4, but the pole body 4 is provided with a ring-shaped stopper 17, and the stopper 17 is the pole body 4.
- the stopper 17 is fixed to the pole body 4, the height position of the cylinder 3 relative to the pole body 4 may be adjusted by setting the stopper 17 so that the height can be adjusted. According to such a configuration, the height of the photovoltaic power generation sheet 5 can be adjusted according to the installation location, and it is also possible to adjust the height so that the power generation efficiency becomes higher.
- the pole body 4 is provided with a grounding portion 12 that supports the entire pole body 4 by grounding, and a storage space 13 inside. Further, the storage space 13 is provided with a window 14 with a lid for taking in and out electronic devices and for maintenance.
- the pole body 4 is composed of a member in which the grounding portion 12 and the storage space 13 are integrated, but the pole body 4 is not limited to such a structure and may be composed of a plurality of parts. However, it may be configured to be stretchable or deformable.
- a mounting portion 15 for mounting a device such as a light 9 is provided at the upper end of the pole body 4, and the light 9 is fixed to the mounting portion 15 so that it can be used as a lighting as a whole. ..
- the sensor 18, the communication device 19, and the camera 20 are attached to the mounting portion 15, and the environmental information of the installation location obtained by the sensor 18 and the camera 20 is transmitted to the external communication means by the communication device 19. It is possible to make a call. With such a configuration, it can be widely used for agricultural servers, industrial servers, disaster monitoring devices, and the like. Furthermore, not only the sensor 18, the communication device 19, and the camera 20 as described above, but also by adding electronic devices and the like according to the installation location and purpose, the monitoring required even in a place where there is no electricity supply. The management equipment can be easily installed.
- the lower portion 4b of the pole body 4 is formed wider than the upper portion 4a, and a storage space 13 is formed inside the lower portion 4b.
- the storage space 13 occupies a range of about one-third of the total length of the pole body 4.
- the reduced diameter portion which is the boundary between the upper portion 4a and the lower portion 4b, does not appear in the appearance, and the overall appearance is smart and beautiful, and the stress By reinforcing this reduced diameter part where stress is concentrated, the overall strength is increased and it is durable.
- the outer diameters of the tubular body 3 and the pole main body 4 are made to have substantially the same dimensions, so that the whole is configured to be smarter as a whole.
- the photovoltaic power generation sheet body 5 is attached so as to be wound around the outer peripheral surface of the tubular body 3.
- the photovoltaic power generation sheet body 5 is wound around a region of about 3/4 of the circumferential direction in most of the vertical direction of the tubular body 3. Therefore, at least a part of the photovoltaic power generation sheet body 5 is not provided in the circumferential direction, and it is not possible to generate power in this region.
- the direction of 5 can be adjusted, and even if there is such a region where power generation cannot be performed, the power generation efficiency can be easily increased.
- both ends of the photovoltaic power generation sheet body 5 in the circumferential direction are fixed to the cylinder body 3 by a band-shaped fixture 16 having substantially the same length dimension as the length dimension in the vertical direction of the photovoltaic power generation sheet body 5.
- a band-shaped fixture 16 having substantially the same length dimension as the length dimension in the vertical direction of the photovoltaic power generation sheet body 5.
- the fixture 16 when the fixture 16 is configured to cover the power generation area of the photovoltaic power generation sheet body 5, the same effect can be obtained by making the fixture 16 have translucency. According to the fixture 16 having such translucency, one configured to cover the entire photovoltaic power generation sheet 5 can be adopted, and further, a tubular shape made of a heat-shrinkable material can be adopted. If the fixture 16 is used, the photovoltaic sheet body 5 is covered with the entire wound cylinder 3 and heat-treated to shrink the fixture 16 and fix the photovoltaic sheet body 5 to the cylinder 3. You can also do it.
- the electric power generated by the photovoltaic power generation sheet 5 is stored in the battery 6 housed inside the pole main body 4 through an electric cord.
- the battery 6 is fixed inside the pole body 4. Therefore, even if the tubular body 3 is rotated with respect to the pole body 4 after the illuminated monitoring information communication device 1 is installed, the battery 6 does not rotate and is kept in a stable state. There is. Further, since the battery 6 is provided in the lower portion 4b of the pole main body 4, the relatively heavy battery 6 is arranged at the lower end portion of the illuminated monitoring information communication device 1, and the weight balance is good as a whole. It is configured to be.
- the upper end of the cylinder 3 is covered with an upper cover 11 rotatably provided on the pole body 4.
- the upper cover 11 makes it difficult for rain to enter between the pole body 4 and the cylinder 3.
- a slight gap is formed between the upper cover 11 and the pole body 4 so that air can be ventilated, and the air is moved upward by this gap. It is configured so that the temperature of the photovoltaic power generation sheet 5 does not become too high by coming out.
- the upper cover 11 is fixed to the pole body 4 by screws so as not to rotate and to slide up and down.
- the grounding portion 12 and the window 14 of the pole main body 4 are erected by setting the orientation of the illuminated monitoring information communication device 1 according to the situation of the installation location, and the grounding portion 12 is fixed to the ground.
- the cylinder 3 is rotated with respect to the pole body 4, the orientation of the photovoltaic power generation sheet 5 is adjusted so as to increase the power generation efficiency, and then the upper and lower fixing screws 10 are tightened to tighten the cylinder.
- the body 3 is fixed to the pole body 4 so that it cannot rotate and slide up and down.
- the basic installation of the illuminated monitoring information communication device 1 is completed by adjusting the angle and direction of the device such as the light 9 as needed.
- the tubular body 3 of the illuminated monitoring information communication device 1 is rotatable with respect to the pole body 4, the solar power is generated after the installation according to the shape of the grounding portion 12 and the environment such as the installation location. Since the orientation of the power generation sheet 5 can be adjusted, the installation work can be easily performed. Here, not only according to the shape of the grounding portion 12 and the environment such as the installation location, but also according to the orientation of electronic devices such as the light 9 and the communication device 19, or according to the orientation of other adjacent devices. The installation work may be performed according to other standards, such as installing the illuminated monitoring information communication device 1 upright.
- This illuminated monitoring information communication device 1A has a tubular body 3 formed wider than the lower portion 4b of the pole main body 4. Since the two photovoltaic power generation sheets 5 and 5 are attached so as to be wound around the wide cylinder 3, the amount of power generation can be increased as compared with the illuminated monitoring information communication device 1 of the first embodiment. It is possible.
- a lower guide metal fitting 22 is provided at the lower end of the tubular body 3A, and the guided surface 8 is formed so that the inner surface thereof has a shape along the outer circumference of the pole body 4 that functions as the guide surface 7.
- the tubular body 3A can rotate smoothly with respect to the pole body 4.
- the other configurations of the illuminated monitoring information communication device 1A provided with the pole-type photovoltaic generator 2A according to the second embodiment are substantially the same as the configurations of the first embodiment, and the same reference numerals are given to these configurations. The description will be omitted.
- each component including its material and whether or not it is configured as a single unit, and it can be widely adopted.
- the strength of each component is increased by using metal. May be high, or the weight may be reduced by using a synthetic resin, or another material or a combination of a plurality of materials may be used.
- the pole-type photovoltaic power generator according to the present invention is a pole-type photovoltaic power generator that has a solar cell module and can generate electricity by sunlight using the solar cell module in a state of being erected substantially vertically.
- the solar cell module is provided with the solar cell module and a battery for storing the power generated by the solar cell module.
- the photovoltaic generator can be rotated in the direction of sunlight after installation, it is not necessary to provide a power generation area of the photovoltaic power generation module over the entire circumference of the pole, and the photovoltaic power generation module is required. It is possible to generate electricity with high efficiency while suppressing the amount.
- the outer peripheral surface of the pole body may have a cylindrical guide surface
- the inner surface of the cylinder may have a guided surface that is rotationally guided by the guide surface
- the cylinder body may be further provided with a fixing means capable of fixing the cylinder body to the pole body so as not to rotate.
- the cylinder body is made non-rotatable to the pole body in the used state. By keeping it, it can be used in a more stable state.
- the fixing means fixes the cylinder and the pole body in a separated state.
- a gap can be provided between the cylinder and the pole body, and this gap can ensure air permeability to prevent moisture from accumulating and suppress the temperature rise of the solar cell module. can.
- the solar cell module is formed by winding a flexible photovoltaic power generation sheet body around the outer peripheral surface side of the cylinder body.
- the configuration becomes simpler, and the manufacturing cost and maintenance cost can be reduced.
- tubular body may be capable of sliding in the vertical direction with the guide surface and the guided surface engaged with the pole body.
- the height of the solar cell module can be adjusted according to the place and time, and the power generation efficiency can be further increased.
- the above-mentioned solar power generator can be used as a lighting device in which a light emitting unit that emits light toward the outside is further provided.
- the above-mentioned photovoltaic power generator is further provided with a sensor and / or a camera for acquiring environmental information of the installation location, and a communication device for transmitting at least the information obtained by the sensor and / or the camera to an external communication means. It can also be a monitoring information communication device.
- a monitoring information communication device can be easily installed even in a place where there is no electricity supply by a photovoltaic generator having high power generation efficiency.
Landscapes
- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Photovoltaic Devices (AREA)
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
[Problem] Provided is a pole-type solar power generator capable of generationg power at a high efficiency while suppressing the necessary number of solar battery modules and capable of being used for an illumination device, a monitoring information communication device, and the like. [Solution] A pole-type solar power generator 2 has a solar power generator sheet body 5 as a solar battery module and can generate power by solar light using the solar power generator sheet body 5 in the state of being installed in a substantially vertically standing manner. The pole-type solar power generator 2 is provided with: a pole body 4; a substantially cylindrical cylinder body 3 provided rotatably with respect to the pole body 4 on the outer circumferential surface side of the pole body 4; the solar power generation sheet body 5 at least partially provided on the outer circumferential surface side of the cylinder body 3; and a battery 6 for storing the power generated by this solar power generator sheet body 5.
Description
本発明は、略垂直に立設した状態で太陽光による発電が可能なポール型太陽光発電装置に関する。
The present invention relates to a pole-type photovoltaic power generation device capable of generating electricity by sunlight while standing substantially vertically.
従来、ポール本体の周壁に太陽電池モジュールが略垂直状に取り付けられ、散乱光および直射光のうち少なくとも散乱光による日射を利用して発電する機能を有する太陽電池付きポールが知られている(特許文献1参照)。
Conventionally, there is known a pole with a solar cell in which a solar cell module is mounted substantially vertically on the peripheral wall of the pole body and has a function of generating electricity by using at least the sunlight generated by the scattered light among the scattered light and the direct light (patented). Reference 1).
このような太陽電池付きポールは、設置面積が少なくてすむため設置場所が限定されず、また、景観上においても優れるものとなっている。しかし、周壁の略全周面に多くの太陽電池モジュールを設けるものであるため、全体として高価なものとなってしまっていた。加えて、多くの太陽電池モジュールを備えていることで、メンテナンスに多くの手間や時間を要し、また、太陽電池モジュールが故障するリスクも高いものとなっていた。
Such a pole with a solar cell requires a small installation area, so the installation location is not limited, and it is also excellent in terms of landscape. However, since many solar cell modules are provided on almost the entire peripheral surface of the peripheral wall, the total cost is high. In addition, since many solar cell modules are provided, it takes a lot of time and effort for maintenance, and there is a high risk that the solar cell module will break down.
そこで、本発明が前述の状況に鑑み解決しようとするところは、太陽電池モジュールの必要数を抑えつつ、高い効率で発電することができるポール型等の立設式の太陽光発電機を提供することにある。
Therefore, what the present invention attempts to solve in view of the above situation is to provide a pole-type or other vertical solar power generator capable of generating power with high efficiency while suppressing the required number of solar cell modules. There is.
本発明に係るポール型太陽光発電機は、太陽電池モジュールを有し、略垂直に立設した状態で該太陽電池モジュールを用いた太陽光による発電が可能なポール型太陽光発電機であって、ポール本体と、該ポール本体の外周面側に、該ポール本体に対して回動可能に設けられた略円筒形状の筒体と、該筒体の外周面側の少なくとも一部に設けられた前記太陽電池モジュールと、該太陽電池モジュールにより発電された電力を蓄電するバッテリとを備えてなるものである。
The pole-type photovoltaic power generator according to the present invention is a pole-type photovoltaic power generator that has a solar cell module and is capable of generating electricity by sunlight using the solar cell module in a state of being erected substantially vertically. , A substantially cylindrical cylinder provided rotatably with respect to the pole body on the outer peripheral surface side of the pole body, and at least a part of the outer peripheral surface side of the cylinder. It includes the solar cell module and a battery for storing the power generated by the solar cell module.
また、上述の太陽光発電機に、設置場所の環境情報を取得するセンサ及び/又はカメラと、少なくともセンサ及び/又はカメラにより得られた情報を外部の通信手段に発信する通信機とを更に設けてなる監視情報通信装置とすることもできる。
Further, the above-mentioned photovoltaic power generator is further provided with a sensor and / or a camera for acquiring environmental information of the installation location, and a communication device for transmitting at least the information obtained by the sensor and / or the camera to an external communication means. It can also be a monitoring information communication device.
以下、本発明の実施形態を添付図面に基づき詳細に説明する。本発明は、添付図面に示された形態に限定されず特許請求の範囲に記載の要件を満たす実施形態の全てを含むものである。図1乃至図5に、本発明の第一実施形態としての照明付き監視情報通信装置1の構成を示す。
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention is not limited to the embodiments shown in the accompanying drawings, but includes all embodiments that satisfy the requirements described in the claims. 1 to 5 show the configuration of the illuminated monitoring information communication device 1 as the first embodiment of the present invention.
図1乃至図5に示すように、本発明の第一実施形態に係る照明付き監視情報通信装置1は、ポール型太陽光発電機2の上部に、発光部としてライト9が設けられ、更に、環境情報を取得するセンサ18と、少なくともセンサ18により得られた情報を外部の通信手段に発信する通信機19とカメラ20が設けられたものである。また、ポール型太陽光発電機2は、太陽電池モジュールとして太陽光発電シート体5を有し、略垂直に立設した状態で太陽光発電シート体5を用いた太陽光による発電が可能なポール型太陽光発電機2であって、ポール本体4と、ポール本体4の外周面側に、ポール本体4に対して回動可能に設けられた略円筒形状の筒体3と、筒体3の外周面側の少なくとも一部に設けられた太陽光発電シート体5と、この太陽光発電シート体5により発電された電力を蓄電するバッテリ6とを備えてなるものである。
As shown in FIGS. 1 to 5, in the illuminated monitoring information communication device 1 according to the first embodiment of the present invention, a light 9 is provided as a light emitting unit on the upper part of the pole type photovoltaic generator 2, and further. A sensor 18 for acquiring environmental information, and a communication device 19 and a camera 20 for transmitting at least the information obtained by the sensor 18 to an external communication means are provided. Further, the pole type photovoltaic power generator 2 has a photovoltaic power generation sheet body 5 as a solar cell module, and is capable of generating electricity by sunlight using the photovoltaic power generation sheet body 5 in a state of being erected substantially vertically. In the type photovoltaic power generator 2, the pole main body 4, the substantially cylindrical cylindrical body 3 provided on the outer peripheral surface side of the pole main body 4 so as to be rotatable with respect to the pole main body 4, and the tubular body 3 It includes a photovoltaic power generation sheet body 5 provided on at least a part of the outer peripheral surface side, and a battery 6 for storing the power generated by the photovoltaic power generation sheet body 5.
ここで、ポール型太陽光発電機2は、太陽光発電機能を有するポール型のものであるが、ポール型とは、例えば、図示するような略垂直に立設された一本の円柱状のものを含み、また、四角柱等の多角柱状・楕円柱状のもの、一本ではなく二本以上が連結されたもの、地形や用途に合わせて若干の立設角度が調整されたもの、及び、折畳みや伸縮、地中への収納可能なもの等、少なくとも一部分を立てて設けるものを広く含むものとする。また、太陽電池モジュールとは、太陽光等の光エネルギーを電気エネルギーに変換する全てのものをいい、一例として可撓性があるものとして図示しているが、これに限らず、円柱形状に形成された板状のパネル等であってもよいし、また他の構成のものを採用してもよい。
Here, the pole type solar power generator 2 is a pole type having a solar power generation function, and the pole type is, for example, a single columnar column erected substantially vertically as shown in the figure. Including those, those with polygonal or elliptical columns such as square columns, those with two or more connected instead of one, those with a slight upright angle adjusted according to the terrain and application, and It shall include a wide range of items such as those that can be folded, expanded and contracted, and those that can be stored in the ground, etc. Further, the solar cell module refers to all those that convert light energy such as sunlight into electric energy, and is shown as a flexible one as an example, but is not limited to this, and is formed in a cylindrical shape. It may be a plate-shaped panel or the like, or another structure may be adopted.
ポール型太陽光発電機2は、筒体3と、この筒体3を所定高さで回動可能に保持するポール本体4とを主な構成部材とし、筒体3に太陽光発電シート体5の一部に巻き付けられ、この太陽光発電シート体5によって発電された電力が筒体3の内部に設けられたバッテリ6に蓄電され、又は電子機器等に使用されるものとなっている。
The pole-type photovoltaic generator 2 has a tubular body 3 and a pole main body 4 that rotatably holds the tubular body 3 at a predetermined height as main constituent members, and the tubular body 3 has a solar power generation sheet body 5. The electric power generated by the photovoltaic power generation sheet 5 is stored in a battery 6 provided inside the cylinder 3 or used for an electronic device or the like.
筒体3は、細長く円筒状に形成されたものであって、内部にポール本体4が挿通され、ポール本体4によって、所定の高さで回動可能に保持されている。また、筒体3の外周面側には太陽電池モジュールとして可撓性を有する太陽光発電シート体5が設けられている。この筒体3は、その上端部と下端部が、ポール本体4の外周面に形成された案内面7に、ポール本体4に対して軸心回りで回動可能且つ上下スライド可能に係合するものとなっており、これらが固定手段である固定用螺子10によって、回動不能且つ上下スライド不能に固定されていることで、通常の使用中においては、ポール本体4に対して筒体3が安定した状態で固定されている。
The tubular body 3 is formed in an elongated cylindrical shape, and a pole main body 4 is inserted therein, and is rotatably held by the pole main body 4 at a predetermined height. Further, a flexible solar power generation sheet 5 is provided as a solar cell module on the outer peripheral surface side of the cylinder 3. The upper end and the lower end of the tubular body 3 engage with the guide surface 7 formed on the outer peripheral surface of the pole body 4 so as to be rotatable and slidable up and down with respect to the pole body 4. These are fixed by a fixing screw 10 which is a fixing means so as not to rotate and slide up and down, so that the tubular body 3 is fixed to the pole body 4 with respect to the pole body 4 during normal use. It is fixed in a stable state.
筒体3の回動を案内するポール本体4の案内面7は、上端部では、縮径されたポール本体4の上部4aの外周面が、下端部では、筒体3の内周面よりも若干幅狭に形成されたポール本体4の下部4bの外周面が夫々案内面として機能するものとなっている。これらの案内面7,7に対し、筒体3の被案内面8は、上端部では、筒体3の内部に、内側に被案内面8が形成された円盤状の上案内金具21が固定されて形成され、下端部では、筒体3の内面が被案内面8として機能するものとなっている。これらの案内面7,7と被案内面8,8の係合によって、筒体3がポール本体4に対して回動可能となっている。また、これらの係合は、筒体3を上方にスライド移動させても維持されるものであり、筒体3の固定位置を若干上方に移動させても、筒体3はポール本体4に対して回動可能のままとなっている。
The guide surface 7 of the pole body 4 that guides the rotation of the tubular body 3 has a diameter-reduced outer peripheral surface of the upper portion 4a of the pole main body 4 at the upper end portion, and is larger than the inner peripheral surface of the tubular body 3 at the lower end portion. The outer peripheral surface of the lower portion 4b of the pole body 4 formed to be slightly narrower functions as a guide surface, respectively. With respect to these guide surfaces 7 and 7, the guided surface 8 of the tubular body 3 has a disk-shaped upper guide metal fitting 21 having a guided surface 8 formed inside fixed to the inside of the tubular body 3 at the upper end portion. At the lower end, the inner surface of the tubular body 3 functions as a guided surface 8. By engaging the guide surfaces 7 and 7 with the guided surfaces 8 and 8, the tubular body 3 can rotate with respect to the pole body 4. Further, these engagements are maintained even if the tubular body 3 is slid upward, and even if the fixed position of the tubular body 3 is slightly moved upward, the tubular body 3 is relative to the pole body 4. It remains rotatable.
ここで、筒体3はポール本体4に対して回動可能且つ上下スライド可能となっているが、ポール本体4には、リング状のストッパー17が設けられており、このストッパー17がポール本体4の下端部に当接することで、この位置よりも筒体3が下がらないものとなっている。このストッパー17はポール本体4に固定されているものであるが、これを高さ調整可能なものとしておくことで、ポール本体4に対する筒体3の相対高さ位置を調整できるものとしてもよい。このような構成によれば、設置場所に合わせて太陽光発電シート体5の高さも調整することができ、発電効率がより高くなるように調整することも可能となる。
Here, the tubular body 3 is rotatable and slidable up and down with respect to the pole body 4, but the pole body 4 is provided with a ring-shaped stopper 17, and the stopper 17 is the pole body 4. By contacting the lower end portion of the cylinder 3, the tubular body 3 does not fall below this position. Although the stopper 17 is fixed to the pole body 4, the height position of the cylinder 3 relative to the pole body 4 may be adjusted by setting the stopper 17 so that the height can be adjusted. According to such a configuration, the height of the photovoltaic power generation sheet 5 can be adjusted according to the installation location, and it is also possible to adjust the height so that the power generation efficiency becomes higher.
ポール本体4は、接地することで全体を支持する接地部12と、内部に収納空間13とが設けられている。また、収納空間13には、電子機器等の出し入れ用及びメンテナンス用の蓋付き窓14が設けられている。このポール本体4は接地部12や収納空間13が一体的な部材によって構成されているが、ポール本体4は、このような構成に限らず、複数の部品から構成されるものであってもよいし、伸縮可能や変形可能なものとして構成されてものであってもよい。
The pole body 4 is provided with a grounding portion 12 that supports the entire pole body 4 by grounding, and a storage space 13 inside. Further, the storage space 13 is provided with a window 14 with a lid for taking in and out electronic devices and for maintenance. The pole body 4 is composed of a member in which the grounding portion 12 and the storage space 13 are integrated, but the pole body 4 is not limited to such a structure and may be composed of a plurality of parts. However, it may be configured to be stretchable or deformable.
ポール本体4の上端部には、ライト9等の機器を取り付けるための取付部15が設けられ、ライト9がこの取付部15に固定されることで、全体として照明として使用できるものとなっている。また、取付部15には、センサ18、通信機19、カメラ20が取り付けられており、センサ18やカメラ20によって得られた設置場所の環境情報等を通信機19によって、外部の通信手段に対して発信できるものとなっている。このような構成によれば、農業用サーバーや工業用サーバー、災害監視装置等に広く活用することが可能である。さらに、上記のようなセンサ18や通信機19、カメラ20に限らず、設置場所や目的に合わせた電子機器等を追加することで、電気供給がない場所であっても必要とされる監視・管理設備を容易に設置することができるものとなる。
A mounting portion 15 for mounting a device such as a light 9 is provided at the upper end of the pole body 4, and the light 9 is fixed to the mounting portion 15 so that it can be used as a lighting as a whole. .. Further, the sensor 18, the communication device 19, and the camera 20 are attached to the mounting portion 15, and the environmental information of the installation location obtained by the sensor 18 and the camera 20 is transmitted to the external communication means by the communication device 19. It is possible to make a call. With such a configuration, it can be widely used for agricultural servers, industrial servers, disaster monitoring devices, and the like. Furthermore, not only the sensor 18, the communication device 19, and the camera 20 as described above, but also by adding electronic devices and the like according to the installation location and purpose, the monitoring required even in a place where there is no electricity supply. The management equipment can be easily installed.
また、このポール本体4の下部4bは、上部4aよりも幅広に形成され、この下部4bの内部には、収納空間13が形成されている。この収納空間13は、ポール本体4の全長における約3分の1の範囲を占めるものとなっている。ここで、この下部4bの上端部には筒体3の下端部が位置するため、上部4aと下部4bとの境目である縮径部が外観に表れず、全体としてスマートで美しく見えるとともに、応力が集中するこの縮径部を補強することで、全体の強度を高くし耐久性のあるものとなっている。更に、本実施形態では、筒体3とポール本体4との外径を略同一寸法とすることで全体がよりスマートなものとして構成されている。
Further, the lower portion 4b of the pole body 4 is formed wider than the upper portion 4a, and a storage space 13 is formed inside the lower portion 4b. The storage space 13 occupies a range of about one-third of the total length of the pole body 4. Here, since the lower end of the tubular body 3 is located at the upper end of the lower portion 4b, the reduced diameter portion, which is the boundary between the upper portion 4a and the lower portion 4b, does not appear in the appearance, and the overall appearance is smart and beautiful, and the stress By reinforcing this reduced diameter part where stress is concentrated, the overall strength is increased and it is durable. Further, in the present embodiment, the outer diameters of the tubular body 3 and the pole main body 4 are made to have substantially the same dimensions, so that the whole is configured to be smarter as a whole.
太陽光発電シート体5は、筒体3の外周面に巻き付けられるようにして取り付けられている。この太陽光発電シート体5は、筒体3の上下方向の大部分において、周方向の約4分の3程度の領域に巻き付けられている。このため、周方向において少なくとも一部分は太陽光発電シート体5が設けられておらず、この領域では発電することができないが、設置後等に、筒体3を回転させることで太陽光発電シート体5の向きの調整が可能であり、このような発電することができない領域があっても容易に発電効率を高いものとすることができる構成となっている。また、太陽光発電シート体5の周方向における両端部は、太陽光発電シート体5の上下方向の長さ寸法と略同じ長さ寸法を有する帯形状の固定具16によって、筒体3に固定されている。この固定具16は、透光性を有しないものであるため、この固定具16によって覆われている範囲の太陽光発電シート体5には太陽光が届かないものとなっているが、本実施形態では、太陽光発電シート体5の端部に設けられた発電しない余白部分が、固定具16によって保持されているため、太陽光発電シート体5の発電領域においては問題なく発電できるものとなっている。一方、固定具16が太陽光発電シート体5の発電領域を覆うような構成とする場合は、この固定具16を、透光性を有するものとすることで同様の効果を得ることもできる。このような透光性を有する固定具16でよれば、太陽光発電シート体5全体を覆うように構成されたものも採用することができ、さらに、熱収縮する素材によって構成された筒状の固定具16とすれば、太陽光発電シート体5が巻き付けられた筒体3全体に被せ、熱処理を行なうことで、固定具16を収縮させて、太陽光発電シート体5を筒体3に固定することもできる。
The photovoltaic power generation sheet body 5 is attached so as to be wound around the outer peripheral surface of the tubular body 3. The photovoltaic power generation sheet body 5 is wound around a region of about 3/4 of the circumferential direction in most of the vertical direction of the tubular body 3. Therefore, at least a part of the photovoltaic power generation sheet body 5 is not provided in the circumferential direction, and it is not possible to generate power in this region. The direction of 5 can be adjusted, and even if there is such a region where power generation cannot be performed, the power generation efficiency can be easily increased. Further, both ends of the photovoltaic power generation sheet body 5 in the circumferential direction are fixed to the cylinder body 3 by a band-shaped fixture 16 having substantially the same length dimension as the length dimension in the vertical direction of the photovoltaic power generation sheet body 5. Has been done. Since the fixture 16 does not have translucency, sunlight does not reach the photovoltaic power generation sheet 5 in the range covered by the fixture 16, but this implementation In the embodiment, since the non-generating margin provided at the end of the photovoltaic power generation sheet 5 is held by the fixture 16, the photovoltaic power generation sheet 5 can generate power without any problem in the power generation region. ing. On the other hand, when the fixture 16 is configured to cover the power generation area of the photovoltaic power generation sheet body 5, the same effect can be obtained by making the fixture 16 have translucency. According to the fixture 16 having such translucency, one configured to cover the entire photovoltaic power generation sheet 5 can be adopted, and further, a tubular shape made of a heat-shrinkable material can be adopted. If the fixture 16 is used, the photovoltaic sheet body 5 is covered with the entire wound cylinder 3 and heat-treated to shrink the fixture 16 and fix the photovoltaic sheet body 5 to the cylinder 3. You can also do it.
太陽光発電シート体5により発電された電力は、ポール本体4の内部に収容されたバッテリ6に電気コードを通じて蓄電される。バッテリ6は、ポール本体4の内部に固定されている。このため、照明付き監視情報通信装置1を設置した後に、筒体3をポール本体4に対して回動させても、バッテリ6は回動せず、安定した状態で保持され続けるものとなっている。また、バッテリ6は、ポール本体4の下部4bに設けられているため、比較的重量の大きいバッテリ6が照明付き監視情報通信装置1の下端部に配置されることとなり、全体として重量バランスが良くなるように構成されている。
The electric power generated by the photovoltaic power generation sheet 5 is stored in the battery 6 housed inside the pole main body 4 through an electric cord. The battery 6 is fixed inside the pole body 4. Therefore, even if the tubular body 3 is rotated with respect to the pole body 4 after the illuminated monitoring information communication device 1 is installed, the battery 6 does not rotate and is kept in a stable state. There is. Further, since the battery 6 is provided in the lower portion 4b of the pole main body 4, the relatively heavy battery 6 is arranged at the lower end portion of the illuminated monitoring information communication device 1, and the weight balance is good as a whole. It is configured to be.
筒体3の上端部は、ポール本体4に回動可能に設けられた上カバー11によって覆われている。この上カバー11によって、ポール本体4と筒体3との間に雨が入り込み難いものとなっている。ここで、上カバー11のポール本体4への取付部分において、上カバー11とポール本体4との間には、通気できる程度の若干の隙間が形成されており、この隙間によって、空気が上方に抜け出ることで、太陽光発電シート体5の温度が高くなり過ぎないように構成されている。なお、設置後の照明付き監視情報通信装置1においては、上カバー11は螺子によってポール本体4に回転不能及び上下スライド不能に固定されている。
The upper end of the cylinder 3 is covered with an upper cover 11 rotatably provided on the pole body 4. The upper cover 11 makes it difficult for rain to enter between the pole body 4 and the cylinder 3. Here, in the attachment portion of the upper cover 11 to the pole body 4, a slight gap is formed between the upper cover 11 and the pole body 4 so that air can be ventilated, and the air is moved upward by this gap. It is configured so that the temperature of the photovoltaic power generation sheet 5 does not become too high by coming out. In the illuminated monitoring information communication device 1 after installation, the upper cover 11 is fixed to the pole body 4 by screws so as not to rotate and to slide up and down.
照明付き監視情報通信装置1の設置方法としては、例えば。まず、ポール本体4の接地部12や窓14の向きを、設置場所の状況に合わせて、照明付き監視情報通信装置1の向きを設定して立設し、接地部12を地面に固定する。次に、筒体3をポール本体4に対して回転させて、太陽光発電シート体5の向きを発電効率が高くなるように調整したうえで、上下夫々の固定用螺子10を締めて、筒体3をポール本体4に回転不能且つ上下スライド不能に固定する。その後、必要に応じてライト9等の機器の角度や向きを調整することで照明付き監視情報通信装置1の基本的な設置が完了する。つまり、照明付き監視情報通信装置1は、ポール本体4に対して筒体3が回転可能となっているため、接地部12の形状や設置場所等の環境に合わせて、設置した後に、太陽光発電シート体5の向きを調整することができるため、設置作業が容易に行なえるものとなっている。ここで、接地部12の形状や設置場所などの環境に合わせることに限らず、ライト9や通信機19等の電子機器の向きに合わせて、又は隣接する他の機器の向き等に合わせて、照明付き監視情報通信装置1を立設して行なう等、他の基準に合わせて設置作業を行なうものとしてもよい。
As a method of installing the illuminated monitoring information communication device 1, for example. First, the grounding portion 12 and the window 14 of the pole main body 4 are erected by setting the orientation of the illuminated monitoring information communication device 1 according to the situation of the installation location, and the grounding portion 12 is fixed to the ground. Next, the cylinder 3 is rotated with respect to the pole body 4, the orientation of the photovoltaic power generation sheet 5 is adjusted so as to increase the power generation efficiency, and then the upper and lower fixing screws 10 are tightened to tighten the cylinder. The body 3 is fixed to the pole body 4 so that it cannot rotate and slide up and down. After that, the basic installation of the illuminated monitoring information communication device 1 is completed by adjusting the angle and direction of the device such as the light 9 as needed. That is, since the tubular body 3 of the illuminated monitoring information communication device 1 is rotatable with respect to the pole body 4, the solar power is generated after the installation according to the shape of the grounding portion 12 and the environment such as the installation location. Since the orientation of the power generation sheet 5 can be adjusted, the installation work can be easily performed. Here, not only according to the shape of the grounding portion 12 and the environment such as the installation location, but also according to the orientation of electronic devices such as the light 9 and the communication device 19, or according to the orientation of other adjacent devices. The installation work may be performed according to other standards, such as installing the illuminated monitoring information communication device 1 upright.
次に、図6乃至図9に沿って、本発明の第二実施形態に係るポール型太陽光発電機2Aを備えた照明付き監視情報通信装置1Aの構成を説明する。
Next, the configuration of the illuminated monitoring information communication device 1A provided with the pole-type photovoltaic power generator 2A according to the second embodiment of the present invention will be described with reference to FIGS. 6 to 9.
この照明付き監視情報通信装置1Aは、ポール本体4の下部4bよりも幅広に形成された筒体3を有するものとなっている。この幅広の筒体3に二枚の太陽光発電シート体5,5が巻き付けられるように取り付けられているため、第一実施形態の照明付き監視情報通信装置1よりも発電量を大きくすることができるものとなっている。筒体3Aの下端部には、下案内金具22が設けられており、この内面が、案内面7として機能するポール本体4の外周に沿う形状として被案内面8が形成されていることで、筒体3Aがポール本体4に対してスムーズに回動することができるものとなっている。第二実施形態に係るポール型太陽光発電機2Aを備えた照明付き監視情報通信装置1Aの他の構成は、第一実施形態の構成と略同じであり、これらの構成については同一の符号を付して説明を省略する。
This illuminated monitoring information communication device 1A has a tubular body 3 formed wider than the lower portion 4b of the pole main body 4. Since the two photovoltaic power generation sheets 5 and 5 are attached so as to be wound around the wide cylinder 3, the amount of power generation can be increased as compared with the illuminated monitoring information communication device 1 of the first embodiment. It is possible. A lower guide metal fitting 22 is provided at the lower end of the tubular body 3A, and the guided surface 8 is formed so that the inner surface thereof has a shape along the outer circumference of the pole body 4 that functions as the guide surface 7. The tubular body 3A can rotate smoothly with respect to the pole body 4. The other configurations of the illuminated monitoring information communication device 1A provided with the pole-type photovoltaic generator 2A according to the second embodiment are substantially the same as the configurations of the first embodiment, and the same reference numerals are given to these configurations. The description will be omitted.
なお、各構成部品については、その素材や一体として構成されているものであるか否か等を含めて、何ら制限されるものはなく、広く採用することができるが、金属を用いることで強度を高いものとしてもよいし、合成樹脂を用いることで軽量化を図ったものとしてもよく、他の素材のものや、複数の素材を組み合わせたものであってもよい。
There are no restrictions on each component, including its material and whether or not it is configured as a single unit, and it can be widely adopted. However, the strength of each component is increased by using metal. May be high, or the weight may be reduced by using a synthetic resin, or another material or a combination of a plurality of materials may be used.
すなわち、本発明に係るポール型太陽光発電機は、太陽電池モジュールを有し、略垂直に立設した状態で該太陽電池モジュールを用いた太陽光による発電が可能なポール型太陽光発電機であって、ポール本体と、該ポール本体の外周面側に、該ポール本体に対して回動可能に設けられた略円筒形状の筒体と、該筒体の外周面側の少なくとも一部に設けられた前記太陽電池モジュールと、該太陽電池モジュールにより発電された電力を蓄電するバッテリとを備えてなるものである。
That is, the pole-type photovoltaic power generator according to the present invention is a pole-type photovoltaic power generator that has a solar cell module and can generate electricity by sunlight using the solar cell module in a state of being erected substantially vertically. A pole body, a substantially cylindrical cylinder rotatably provided on the outer peripheral surface side of the pole body, and at least a part of the outer peripheral surface side of the cylinder. The solar cell module is provided with the solar cell module and a battery for storing the power generated by the solar cell module.
この構成によれば、設置後に太陽光発電機を太陽光が当たる向きに回転させることができるため、ポールの全周に亘って太陽発電モジュールの発電領域を設ける必要がなく、太陽発電モジュールの必要量を抑えつつ、高い効率で発電することができる。
According to this configuration, since the photovoltaic generator can be rotated in the direction of sunlight after installation, it is not necessary to provide a power generation area of the photovoltaic power generation module over the entire circumference of the pole, and the photovoltaic power generation module is required. It is possible to generate electricity with high efficiency while suppressing the amount.
また、前記ポール本体の外周面に円柱形状の案内面を有するとともに、前記筒体の内面に、前記案内面によって回動案内される被案内面を有しなるものとしてもよい。
Further, the outer peripheral surface of the pole body may have a cylindrical guide surface, and the inner surface of the cylinder may have a guided surface that is rotationally guided by the guide surface.
この構成によれば、簡易な構成でスムーズな回動を可能とすることができる。
According to this configuration, smooth rotation can be enabled with a simple configuration.
さらに、前記筒体を前記ポール本体に対して回動不能に固定することができる固定手段を更に備えてなるものとしてもよい。
Further, the cylinder body may be further provided with a fixing means capable of fixing the cylinder body to the pole body so as not to rotate.
この構成によれば、筒体をポール本体に対して回動不能に固定することができる固定手段を更に備えてなる構成によれば、使用状態において筒体をポール本体に対して回動不能としておくことで、より安定した状態で使用することができる。
According to this configuration, according to the configuration further provided with a fixing means capable of fixing the cylinder body to the pole body so as not to rotate, the cylinder body is made non-rotatable to the pole body in the used state. By keeping it, it can be used in a more stable state.
さらにまた、前記固定手段は、前記筒体と前記ポール本体とを離間した状態で固定するものであると好ましい。
Furthermore, it is preferable that the fixing means fixes the cylinder and the pole body in a separated state.
この構成によれば、筒体とポール本体との間に隙間を設けることができ、この隙間によって通気性を確保して湿気が溜まりにくくしたり、太陽電池モジュールの温度上昇を抑えたりすることができる。
According to this configuration, a gap can be provided between the cylinder and the pole body, and this gap can ensure air permeability to prevent moisture from accumulating and suppress the temperature rise of the solar cell module. can.
また、前記太陽電池モジュールは、可撓性を有する太陽光発電シート体を前記筒体の外周面側に巻き付けてなるとより好ましい。
Further, it is more preferable that the solar cell module is formed by winding a flexible photovoltaic power generation sheet body around the outer peripheral surface side of the cylinder body.
この構成によれば、より簡易な構成となり、製造コストやメンテナンスのコストを低廉化することができる。
According to this configuration, the configuration becomes simpler, and the manufacturing cost and maintenance cost can be reduced.
さらに、前記筒体が前記ポール本体に対し、前記案内面と前記被案内面とが係合した状態で、上下方向にスライド移動可能としてなるものであってもよい。
Further, the tubular body may be capable of sliding in the vertical direction with the guide surface and the guided surface engaged with the pole body.
この構成によれば、場所や時間に合わせて太陽電池モジュールの高さを調整することができ、発電効率をより高くすることが可能となる。
According to this configuration, the height of the solar cell module can be adjusted according to the place and time, and the power generation efficiency can be further increased.
さらにまた、上述の太陽光発電機に、外方に向けて光を放つ発光部を更に設けてなる照明装置とすることもできる。
Furthermore, the above-mentioned solar power generator can be used as a lighting device in which a light emitting unit that emits light toward the outside is further provided.
この構成によれば、電気供給がない場所にも発電効率の高い太陽光発電機によって容易に照明を設置することができる。
According to this configuration, lighting can be easily installed by a photovoltaic generator with high power generation efficiency even in places where there is no electricity supply.
また、上述の太陽光発電機に、設置場所の環境情報を取得するセンサ及び/又はカメラと、少なくともセンサ及び/又はカメラにより得られた情報を外部の通信手段に発信する通信機とを更に設けてなる監視情報通信装置とすることもできる。
Further, the above-mentioned photovoltaic power generator is further provided with a sensor and / or a camera for acquiring environmental information of the installation location, and a communication device for transmitting at least the information obtained by the sensor and / or the camera to an external communication means. It can also be a monitoring information communication device.
この構成によれば、電気供給がない場所にも発電効率の高い太陽光発電機によって容易に監視情報通信装置を設置することができる。
According to this configuration, a monitoring information communication device can be easily installed even in a place where there is no electricity supply by a photovoltaic generator having high power generation efficiency.
1,1A 照明付き監視情報通信装置
2,2A ポール型太陽光発電機
3,3A 筒体
4 ポール本体
4a ポール本体の上部
4b ポール本体の下部
5 太陽光発電シート体
6 バッテリ
7 案内面
8 被案内面
9 ライト
10 固定用螺子
11 上カバー
12 接地部
13 収納空間
14 蓋付き窓
15 取付部
16 固定具
17 ストッパー
18 センサ
19 通信機
20 カメラ
21 上案内金具
22 下案内金具 1,1A Illuminated monitoring information communication device 2,2A Pole type solar generator 3,3A Cylinder 4 Pole body 4a Pole body upper part 4b Pole body lower part 5 Solar power generation sheet body 6 Battery 7 Guide surface 8 Guided Surface 9 Light 10 Fixing screw 11 Top cover 12 Grounding part 13 Storage space 14 Window with lid 15 Mounting part 16 Fixture 17 Stopper 18 Sensor 19 Communication device 20 Camera 21 Top guide bracket 22 Bottom guide bracket
2,2A ポール型太陽光発電機
3,3A 筒体
4 ポール本体
4a ポール本体の上部
4b ポール本体の下部
5 太陽光発電シート体
6 バッテリ
7 案内面
8 被案内面
9 ライト
10 固定用螺子
11 上カバー
12 接地部
13 収納空間
14 蓋付き窓
15 取付部
16 固定具
17 ストッパー
18 センサ
19 通信機
20 カメラ
21 上案内金具
22 下案内金具 1,1A Illuminated monitoring
Claims (8)
- 太陽電池モジュールを有し、略垂直に立設した状態で該太陽電池モジュールを用いた太陽光による発電が可能なポール型太陽光発電機であって、
ポール本体と、
該ポール本体の外周面側に、該ポール本体に対して回動可能に設けられた略円筒形状の筒体と、
該筒体の外周面側の少なくとも一部に設けられた前記太陽電池モジュールと、
該太陽電池モジュールにより発電された電力を蓄電するバッテリとを備えてなることを特徴とするポール型太陽光発電機。 It is a pole-type photovoltaic power generator that has a solar cell module and can generate electricity by sunlight using the solar cell module in a state where it is erected substantially vertically.
With the pole body
On the outer peripheral surface side of the pole body, a substantially cylindrical cylindrical body rotatably provided with respect to the pole body,
The solar cell module provided on at least a part of the outer peripheral surface side of the cylinder, and
A pole-type photovoltaic generator comprising a battery for storing electric power generated by the solar cell module. - 前記ポール本体の外周面に円柱形状の案内面を有するとともに、
前記筒体の内面に、前記案内面によって回動案内される被案内面を有してなる請求項1記載のポール型太陽光発電機。 It has a cylindrical guide surface on the outer peripheral surface of the pole body and has a cylindrical guide surface.
The pole-type photovoltaic power generator according to claim 1, wherein the inner surface of the cylinder has a guided surface that is rotationally guided by the guide surface. - 前記筒体を前記ポール本体に対して回動不能に固定することができる固定手段を更に備えてなる請求項1又は2記載のポール型太陽光発電機。 The pole-type photovoltaic generator according to claim 1 or 2, further comprising a fixing means capable of fixing the cylinder to the pole body so as not to rotate.
- 前記固定手段は、前記筒体と前記ポール本体とを離間した状態で固定するものである請求項3記載のポール型太陽光発電機。 The pole-type solar power generator according to claim 3, wherein the fixing means fixes the cylinder and the pole body in a separated state.
- 前記太陽電池モジュールは、可撓性を有する太陽光発電シート体を前記筒体の外周面側に巻き付けてなる請求項1乃至4の何れか1項に記載のポール型太陽光発電機。 The pole-type solar power generator according to any one of claims 1 to 4, wherein the solar cell module is formed by winding a flexible solar power generation sheet body around the outer peripheral surface side of the cylinder body.
- 前記筒体が前記ポール本体に対し、前記案内面と前記被案内面とが係合した状態で、上下方向にスライド移動可能としてなる請求項2乃至5の何れか1項に記載のポール型太陽光発電装置。 The pole-type solar according to any one of claims 2 to 5, wherein the tubular body can slide and move in the vertical direction with the guide surface and the guided surface engaged with the pole body. Photovoltaic device.
- 請求項1乃至6の何れか1項に記載のポール型太陽光発電機に、外方に向けて光を放つ発光部を更に設けてなる照明装置。 A lighting device in which the pole-type photovoltaic generator according to any one of claims 1 to 6 is further provided with a light emitting unit that emits light toward the outside.
- 請求項1乃至7の何れか1項に記載のポール型太陽光発電機に、設置場所の環境情報を取得するセンサ及び/又はカメラと、少なくとも該センサ及び/又はカメラにより得られた情報を外部の通信手段に発信する通信機とを更に設けてなる監視情報通信装置。 The pole-type photovoltaic power generator according to any one of claims 1 to 7 is externally provided with a sensor and / or a camera for acquiring environmental information of the installation location, and at least the information obtained by the sensor and / or the camera. A monitoring information communication device that is further provided with a communication device that transmits power to the communication means of the above.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2020-037074 | 2020-03-04 | ||
JP2020037074A JP2021141693A (en) | 2020-03-04 | 2020-03-04 | Pole type photovoltaic power generator, lighting system with pole type photovoltaic power generator, and monitoring information communication device with pole type photovoltaic power generator |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2021177345A1 true WO2021177345A1 (en) | 2021-09-10 |
Family
ID=77612636
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/JP2021/008136 WO2021177345A1 (en) | 2020-03-04 | 2021-03-03 | Pole-type solar power generator, illumination device equipped with said pole-type solar power generator, and monitoring information communication device equipped with said pole-type solar power generator |
Country Status (2)
Country | Link |
---|---|
JP (1) | JP2021141693A (en) |
WO (1) | WO2021177345A1 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2023048253A1 (en) * | 2021-09-27 | 2023-03-30 | 株式会社次世代商品開発研究所 | Power source pole and illumination device using same, and multifunctional device |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2009218086A (en) * | 2008-03-11 | 2009-09-24 | Jet Neko Kk | Outdoor lamp |
JP2012043907A (en) * | 2010-08-17 | 2012-03-01 | Shinwa Kogyo Kk | Photovoltaic power generator |
KR20120133932A (en) * | 2011-06-01 | 2012-12-11 | 주식회사 아모럭스 | Solar powered street lamp and controlling method thereof |
JP2013143409A (en) * | 2012-01-10 | 2013-07-22 | Systec:Kk | Mounting frame for photovoltaic power generator |
JP2015022121A (en) * | 2013-07-18 | 2015-02-02 | 積水樹脂株式会社 | Display device |
JP2015038854A (en) * | 2013-07-16 | 2015-02-26 | 株式会社東部 | Steel pipe pile and pole using steel pipe pile |
-
2020
- 2020-03-04 JP JP2020037074A patent/JP2021141693A/en active Pending
-
2021
- 2021-03-03 WO PCT/JP2021/008136 patent/WO2021177345A1/en active Application Filing
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2009218086A (en) * | 2008-03-11 | 2009-09-24 | Jet Neko Kk | Outdoor lamp |
JP2012043907A (en) * | 2010-08-17 | 2012-03-01 | Shinwa Kogyo Kk | Photovoltaic power generator |
KR20120133932A (en) * | 2011-06-01 | 2012-12-11 | 주식회사 아모럭스 | Solar powered street lamp and controlling method thereof |
JP2013143409A (en) * | 2012-01-10 | 2013-07-22 | Systec:Kk | Mounting frame for photovoltaic power generator |
JP2015038854A (en) * | 2013-07-16 | 2015-02-26 | 株式会社東部 | Steel pipe pile and pole using steel pipe pile |
JP2015022121A (en) * | 2013-07-18 | 2015-02-02 | 積水樹脂株式会社 | Display device |
Also Published As
Publication number | Publication date |
---|---|
JP2021141693A (en) | 2021-09-16 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP3932029B2 (en) | Installation method of solar cell module | |
JP5271403B2 (en) | Cable-controlled solar tracking solar power generator | |
CN106685316B (en) | Wind-solar power generation system | |
JP3173271U (en) | Elastic cable control solar tracking solar power generator | |
US8823315B2 (en) | Portable self-contained photovoltaic solar device | |
WO2021177345A1 (en) | Pole-type solar power generator, illumination device equipped with said pole-type solar power generator, and monitoring information communication device equipped with said pole-type solar power generator | |
CA2667118A1 (en) | Adjustable solar powerer | |
JP5416191B2 (en) | Suspension supported solar power generator | |
US20170152837A1 (en) | Portable power generating solar cell wind turbine | |
US20100236604A1 (en) | Vertical solar panel array and method | |
JP7432967B2 (en) | Rotating device for solar power generation pole system | |
KR20140013135A (en) | Solar photovoltaic power generation device | |
JP2012028447A (en) | Handle wind-up type solar electric generator | |
JP7335477B2 (en) | POLE TYPE SOLAR GENERATOR, LIGHTING DEVICE INCLUDING THE POLE TYPE SOLAR GENERATOR, AND MONITORING INFORMATION COMMUNICATION DEVICE INCLUDING THE POLE TYPE SOLAR GENERATOR | |
KR20190000481A (en) | Solar power generation apparatus | |
KR101958965B1 (en) | Multi power generating apparatus | |
KR101951720B1 (en) | Photovoltaic devices | |
US8988037B1 (en) | Solar panel storage and deployment system | |
KR200469754Y1 (en) | Cylinder connected to the motor directly | |
KR102088045B1 (en) | Power generating apparatus | |
CA3033523C (en) | Totem pole solar capture housing unit | |
US8988036B1 (en) | Solar panel storage and deployment system | |
JP2019205330A (en) | Roof solar system and solar tent | |
CN206846570U (en) | Solar street light | |
CN217037110U (en) | Photovoltaic power generation installing support of angularly adjustable |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
121 | Ep: the epo has been informed by wipo that ep was designated in this application |
Ref document number: 21765325 Country of ref document: EP Kind code of ref document: A1 |
|
NENP | Non-entry into the national phase |
Ref country code: DE |
|
122 | Ep: pct application non-entry in european phase |
Ref document number: 21765325 Country of ref document: EP Kind code of ref document: A1 |